Maruti Kumar Mudunuru
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A numerical framework for diffusion-controlled bimolecular-reactive systems to enforce maximum principles and the non-negative constraint
KB Nakshatrala, MK Mudunuru, AJ Valocchi
Journal of Computational Physics 253, 278-307, 2013
On enforcing maximum principles and achieving element-wise species balance for advection–diffusion–reaction equations under the finite element method
MK Mudunuru, KB Nakshatrala
Journal of Computational Physics 305, 448-493, 2016
Regression-based reduced-order models to predict transient thermal output for enhanced geothermal systems
MK Mudunuru, S Karra, DR Harp, GD Guthrie, HS Viswanathan
Geothermics 70, 192-205, 2017
A framework for coupled deformation–diffusion analysis with application to degradation/healing
MK Mudunuru, KB Nakshatrala
International journal for numerical methods in engineering 89 (9), 1144-1170, 2012
Reduced-order modeling through machine learning and graph-theoretic approaches for brittle fracture applications
A Hunter, BA Moore, M Mudunuru, V Chau, R Tchoua, C Nyshadham, ...
Computational Materials Science 157, 87-98, 2019
Reduced Order Models to Predict Thermal Output For Enhanced Geothermal Systems
MK Mudunuru, S Karra, SM Kelkar, DR Harp, GD Guthrie Jr, ...
Los Alamos National Lab.(LANL), Los Alamos, NM (United States), 2019
Sequential geophysical and flow inversion to characterize fracture networks in subsurface systems
MK Mudunuru, S Karra, N Makedonska, T Chen
Statistical Analysis and Data Mining: The ASA Data Science Journal 10 (5á…, 2017
On mesh restrictions to satisfy comparison principles, maximum principles, and the non-negative constraint: Recent developments and new results
M Mudunuru, KB Nakshatrala
Mechanics of Advanced Materials and Structures 24 (7), 556-590, 2017
Material degradation due to moisture and temperature. Part 1: mathematical model, analysis, and analytical solutions
C Xu, MK Mudunuru, KB Nakshatrala
Continuum Mechanics and Thermodynamics 28 (6), 1847-1885, 2016
On local and global species conservation errors for nonlinear ecological models and chemical reacting flows
MK Mudunuru, M Shabouei, KB Nakshatrala
ASME International Mechanical Engineering Congress and Exposition 57526á…, 2015
Unsupervised machine learning based on non-negative tensor factorization for analyzing reactive-mixing
VV Vesselinov, MK Mudunuru, S Karra, D O'Malley, BS Alexandrov
Journal of Computational Physics 395, 85-104, 2019
Using machine learning to discern eruption in noisy environments: A case study using CO2‐driven cold‐water geyser in Chimayˇ, New Mexico
B Yuan, YJ Tan, MK Mudunuru, OE Marcillo, AA Delorey, PM Roberts, ...
Seismological Research Letters 90 (2A), 591-603, 2019
Surrogate models for estimating failure in brittle and quasi-brittle materials
MK Mudunuru, N Panda, S Karra, G Srinivasan, VT Chau, E Rougier, ...
Applied Sciences 9 (13), 2706, 2019
Physics-informed Machine Learning for Real-time Unconventional Reservoir Management
MK Mudunuru, D O’Malley, S Srinivasan, JD Hyman, MR Sweeney, ...
AAAI 2020 Spring Symposium on Combining Artificial Intelligence andá…, 2020
Scalable time-series feature engineering framework to understand multiphase flow using acoustic signals
MK Mudunuru, VK Chillara, S Karra, D Sinha
Proceedings of Meetings on Acoustics 6ICU 32 (1), 055003, 2017
IoGET: Internet of Geophysical and Environmental Things
MK Mudunuru
Los Alamos National Lab.(LANL), Los Alamos, NM (United States), 2017
Physics-Informed Machine Learning Models for Predicting the Progress of Reactive-Mixing
MK Mudunuru, S Karra
arXiv preprint arXiv:1908.10929, 2019
Unsupervised Machine Learning Based on Non-Negative Tensor Factorization for Analysis of Reactive-Transport Site Data Simulations
VV Vesselinov, MK Mudunuru, S Karra, D O'Malley, BS Alexandrov
Integration of Data, Numerical Inversion, and Unsupervised Machine Learning to Identify Hidden Geothermal Resources in Southwest New Mexico
B Ahmmed, M Mudunuru
AGU Fall Meeting 2020, 2020
Machine learning models for real-time forecasting of shale gas production
MK Mudunuru, KF Hoover
Los Alamos National Lab.(LANL), Los Alamos, NM (United States), 2020
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